Determining Radio Signal Metrics for Specified Resource Blocks

2. The method of claim 1 wherein the signal metric comprises Received Signal Received Quality (RSRQ), Synchronization Signal RSRQ (SS-RSRQ), Channel State Information RSRQ (CSI-RSRQ), Received Signal Received Power (RSRP), Received Signal Strength Indication (RSSI), and/or Signal to Interference plus Noise Ratio (SINR).

3. The method of claim 1 further comprising the baseband circuitry determining when channel bandwidth is excessive and when multiple PCIs are available to serve the UE, and in response, selecting some of the resource blocks in the frequency channel and generating a UE instruction to measure the radio signal metric for the selected resource blocks in the frequency channel and to inhibit measuring the radio signal metric for other resource blocks in the frequency channel.

4. The method of claim 1 wherein baseband circuitry determining when the multiple PCIs are available to serve the UE, and in response, selecting some of the resource blocks in the frequency channel and generating the UE instruction to measure the radio signal metric for the selected resource blocks in the frequency channel and to inhibit measuring the radio signal metric for other resource blocks in the frequency channel comprises the 5GNR RRC determining when the multiple PCIs are available to serve the UE, and in response, selecting some of the resource blocks in the frequency channel and generating the UE instruction to measure the radio signal metric for the selected resource blocks in the frequency channel and to inhibit measuring the radio signal metric for other resource blocks in the frequency channel.

5. The method of claim 1 wherein the baseband circuitry receiving the measurement report and responsively scheduling the UE in the selected resource blocks based on the radio signal metric for the selected resource blocks comprises the baseband circuitry determining when the signal metric exceeds a quality threshold and responsively scheduling the UE in the selected resource blocks based on the signal metric for the selected resource blocks when the radio signal metric exceeds the quality threshold.

6. The method of claim 1 further comprising the baseband circuitry determining when channel load is excessive and when multiple PCIs are available to serve the UE, and in response, selecting some resource blocks in the frequency channel and generating a UE instruction to measure the radio signal metric for the selected resource blocks in the frequency channel and to inhibit measuring the radio signal metric for other resource blocks in the frequency channel.

7. The method of claim 1 wherein the multiple PCIs comprises three or more PCIs.

10. The method of claim 1 wherein the RAN comprises a 5GNR gNodeB.

12. The RAN claim 11 wherein the signal metric comprises Received Signal Received Quality (RSRQ), Synchronization Signal RSRQ (SS-RSRQ), Channel State Information RSRQ (CSI-RSRQ), Received Signal Received Power (RSRP), Received Signal Strength Indication (RSSI), and/or Signal to Interference plus Noise Ratio (SINR).

13. The RAN of claim 11 further comprising the baseband circuitry configured to determine when channel bandwidth is excessive and when multiple PCIs are available to serve the UE, and in response, select some of the resource blocks in the frequency channel and generate a UE instruction to measure the radio signal metric for the selected resource blocks in the frequency channel and to inhibit measuring the radio signal metric for other resource blocks in the frequency channel.

14. The RAN of claim 11 wherein the 5GNR RRC is configured to determine when the multiple PCIs are available to serve the UE, and in response, select some of the resource blocks in the frequency channel and generate the UE instruction to measure the radio signal metric for the selected resource blocks in the frequency channel and to inhibit measuring the radio signal metric for other resource blocks in the frequency channel.

15. The RAN of claim 11 wherein the baseband circuitry is configured to determine when the signal metric exceeds a quality threshold and responsively schedule the UE in the selected resource blocks based on the signal metric for the selected resource blocks when the radio signal metric exceeds the quality threshold.

16. The RAN of claim 11 further comprising the baseband circuitry configured to determine when channel load is excessive and when multiple PCIs are available to serve the UE, and in response, select some of the resource blocks in the frequency channel and generate a UE instruction to measure the radio signal metric for the selected resource blocks in the frequency channel and to inhibit measuring the radio signal metric for other resource blocks in the frequency channel.

17. The RAN of claim 11 wherein the multiple PCIs comprises three or more PCIs.

20. The RAN of claim 11 wherein the RAN comprises a 5GNR gNodeB.